CN112048890A - Impurity removing mechanism for textile machine - Google Patents

Abstract

The application relates to the technical field of textile machines, in particular to an impurity removing mechanism for a textile machine, which comprises a support, wherein two groups of cleaning assemblies, a driving assembly, two groups of collecting assemblies and two groups of air injection assemblies are arranged on the support, the cleaning assemblies are arranged in a hollow manner, and a plurality of impurity absorbing ports are formed in the side parts of the cleaning assemblies; the collecting component is provided with an air inlet, an air outlet and a filter plate. In the impurity removing process of the fabric, the fabric penetrates through the two groups of cleaning assemblies, and the driving assemblies drive the two groups of cleaning assemblies to brush impurities on the fabric; the air injection assembly injects high-pressure air from the air inlet to the air outlet, so that negative pressure is formed inside the cleaning assembly, and impurities brushed away by the cleaning assembly and air pass through the impurity suction port, the inside of the cleaning assembly and the air inlet together to enter the collection assembly; the impurities are filtered by the filter plate, and the air passes through the filter plate and is sprayed out from the air outlet to the contact part of the cleaning assembly and the fabric, so that the impurities on the fabric are blown off. This application has improved the edulcoration effect.

Description

Impurity removing mechanism for textile machine

Technical Field

The application relates to the technical field of weaving machines, especially relates to an edulcoration mechanism for weaving machine.

Background

The textile machine is a general name of a tool for processing raw materials such as threads, silks, hemp and the like into silk threads and then weaving the silk threads into fabrics. The textile machine often produces a large amount of impurities such as waste threads and flocks in the processing production process, and the waste threads and the flocks are attached to the surface of the fabric to affect the quality of the fabric.

The existing impurity removal mode is to suck and remove waste threads and wool on the fabric through an exhaust fan, but the impurity removal effect of the impurity removal mode is poor, so that improvement is needed.

Disclosure of Invention

In order to improve the edulcoration effect, this application provides an edulcoration mechanism for weaving machine.

The application provides a edulcoration mechanism for weaving machine adopts following technical scheme: an impurity removing mechanism for a textile machine comprises a support, wherein two groups of cleaning assemblies which are respectively abutted to the upper side and the lower side of a fabric, a driving assembly which drives the two groups of cleaning assemblies to synchronously and reversely rotate, two groups of collecting assemblies which are respectively positioned on the upper side and the lower side of the fabric and two groups of air injection assemblies which are respectively positioned on the corresponding collecting assemblies are arranged on the support, the cleaning assemblies are arranged in a hollow manner, and a plurality of impurity absorbing ports which are communicated with the cleaning assemblies are arranged on the side parts of the cleaning assemblies; the collecting component is provided with an air inlet facing the upper impurity suction port of the cleaning component, an air outlet facing the contact part of the cleaning component and the fabric, and a filter plate positioned between the air inlet and the air outlet; the gas injection assembly injects high-pressure gas from the gas inlet to the gas outlet.

By adopting the technical scheme, in the impurity removing process of the fabric, the fabric penetrates through the two groups of cleaning assemblies, the driving assembly drives the two groups of cleaning assemblies to synchronously and reversely rotate, and the cleaning assemblies brush out impurities such as waste threads, wool and the like on the fabric; meanwhile, the air injection assembly injects high-pressure air from the air inlet to the air outlet, so that negative pressure is formed inside the collection assembly, and the air inlet faces the impurity suction port of the cleaning assembly, so that the impurity suction port of the cleaning assembly generates suction force, and impurities brushed by the cleaning assembly and air pass through the impurity suction port, the inside of the cleaning assembly and the air inlet together to enter the collection assembly; impurity will be filtered by the filter plate, and the air will pass the filter plate and spout the contact department of clearance subassembly and surface fabric from the gas outlet for impurity on the surface fabric is blown and gets into in the collection subassembly through inhaling miscellaneous mouthful, clearance subassembly is inside and air inlet, has improved the edulcoration effect.

Simultaneously, at the rotatory in-process of clearance subassembly, inhale the position of miscellaneous mouthful and will constantly change, so inhale miscellaneous mouthful and will inhale the impurity on the surface fabric with the suction direction of difference, the impurity of being convenient for breaks away from the surface fabric, has further improved the edulcoration effect.

Optionally, the cleaning assembly comprises a rotating drum extending in the horizontal direction and a plurality of bristles fixed on the outer wall of the rotating drum, the rotating drum is rotatably connected to the support through a horizontal shaft, the plurality of impurity suction ports are circumferentially arranged on the outer wall of the rotating drum, the impurity suction ports are communicated with the inside of the rotating drum, and the bristles abut against the fabric.

Through adopting above-mentioned technical scheme, drive assembly will drive horizontal axis, rotary drum and brush hair and rotate around the horizontal axis, and the brush hair will be removed the impurity brush on the surface fabric, has certain elasticity because of the brush hair, so make the clearance subassembly can carry out the impurity clearance to the surface fabric of different thickness.

Optionally, the collecting assembly comprises a collecting box installed on the support, the collecting box is hollow, the air inlet and the air outlet are both formed in the outer wall of the collecting box and communicated with the inside of the collecting box, the filter plate is fixedly embedded in the collecting box, and an arc-shaped surface for rotating and abutting against bristles is arranged on the outer wall of the collecting box.

Through adopting above-mentioned technical scheme, when the brush hair contradicts in the arcwall face, will enclose into a jointly with the brush hair that the arcwall face contradicts, arcwall face and rotary drum outer wall and separate the chamber, the air is difficult for entering into the air inlet through hindering separating the chamber in, so the air will never enter into the rotary drum with the gettering mouth of the brush hair department that the arcwall face contradicts in, has reduced the gettering mouth quantity that can admit air, so every suction that can admit air the gettering mouth will increase, has improved the effect of gettering to impurity on the surface fabric.

Optionally, be fixed with on the arcwall face and be used for pressing the brush hair to crooked edulcoration board, the edulcoration board is kept away from the one end of arcwall face and is the interval setting with the outer wall of rotary drum, and the edulcoration board is located air inlet department.

Through adopting above-mentioned technical scheme, when the drive assembly drive clearance subassembly was rotatory, the brush hair will rotate and contradict in the edulcoration board, and the edulcoration board will make the brush hair warp the bending gradually, and the impurity of being attached to on the brush hair will be struck off by the edulcoration board, and the impurity of being struck off will get into in the collection box through the air inlet for impurity is difficult to be attached to the surface fabric again through the brush hair, has improved the edulcoration effect.

Optionally, two air outlets are arranged on the collecting box, the cleaning assembly is located between the two air outlets, and the two air outlets face the contact position of the cleaning assembly and the fabric; two filter plates are fixedly embedded in the collection box, and each filter plate is positioned between the air inlet and the corresponding air outlet; the jet-propelled subassembly includes air pump and two jet-propelled pipes of connecting in the air pump, and two jet-propelled pipes all stretch into in the collection box, and all are equipped with the jet-propelled mouth towards the gas outlet that corresponds on two jet-propelled pipes.

Through adopting above-mentioned technical scheme, when the air pump passes through the jet-propelled pipe and sprays high-pressure gas to the gas outlet, the air inlet will form the negative pressure, and the gettering mouth will produce suction for the impurity that is brushed the brush hair and removes will pass the gettering mouth, the clearance subassembly is inside and the air inlet gets into in the collection box. High-pressure gas sprayed out of the gas nozzles of the gas spraying pipes is sprayed to the fabric from the corresponding gas outlets, and impurities on the fabric are blown off at different angles by the high-pressure gas sprayed out of the two gas outlets, so that the impurity removal effect is improved; and two gas outlets are mutually supported for impurity on the surface fabric is all gathered in clearance subassembly department, thereby is convenient for impurity to be inhaled in collecting box.

Optionally, every the jet-propelled pipe all is located between air inlet and the filter plate that corresponds, is equipped with the spraying subassembly on the collection box, and the spraying subassembly includes the water pump, is connected with inlet tube and two outlet pipes on the water pump, all is connected with the atomizer that stretches into in the collection box on every outlet pipe, and every atomizer all is located between corresponding jet-propelled pipe and the filter plate.

Through adopting above-mentioned technical scheme, when the air pump passes through the jet-propelled pipe and sprays high-pressure gas to the gas outlet, the water pump will be outside water suction to atomizer in, atomizer will spout water smoke, high-pressure gas will blow water smoke to the gas outlet, water smoke will contact with waste wire, batting, and waste wire and batting that are drenched by the water smoke will be because of self gravity fall in collecting the box and be difficult for wafting and collect the box, have realized the effective collection to waste wire and batting.

Optionally, each separation assembly is arranged between the atomizing nozzle and the corresponding filter plate and comprises a plurality of fixing plates which are arranged on the inner wall of the collecting box in a staggered mode, and all the fixing plates jointly enclose a serpentine channel.

Through adopting above-mentioned technical scheme, when high-pressure gas blows the water smoke to the gas outlet, high-pressure gas, water smoke and impurity will pass through from serpentine channel, have improved the contact time of water smoke and impurity for most impurity homoenergetic is drenched and is attached to on the fixed plate by the water smoke, so the filter plate will be difficult for being blocked up by the impurity of drenching, and the water smoke volume that passes the filter plate will reduce, makes the water smoke difficult with the surface fabric contact.

Optionally, a plurality of mounting rods are fixed on the fixing plate, and a plurality of barbs used for hooking waste threads and batts are fixed on the mounting rods.

Through adopting above-mentioned technical scheme, when high-pressure gas, water smoke and impurity pass through from serpentine channel, the overhead kick will catch on waste wire and batting, has improved the collection effect to waste wire and batting to further make the filter plate be difficult for blockking up, guaranteed that high-pressure gas can normally pass the filter plate and spout to the surface fabric from the gas outlet, so that impurity on the surface fabric is blown into in the rotary drum.

Optionally, a water guide plate is arranged between each filter plate and the corresponding air outlet, the water guide plate is mounted on the inner wall of the collection box, and one end of the water guide plate and the inner wall of the collection box enclose a flow cavity through which high-pressure gas and water pass; one side that the water guide plate kept away from the filter plate and the inner wall of collecting the box have enclosed into the hybrid chamber, are fixed with the baffle that is used for separating air and water on the chamber wall of hybrid chamber, and the baffle has separated the hybrid chamber into the chamber and the air chamber that catchments that communicate each other, and the flow chamber communicates in the chamber that catchments, and the gas outlet communicates in the air chamber.

By adopting the technical scheme, after high-pressure gas, water mist and impurities pass through the serpentine channel, the water mist penetrates through the filter plate along with the high-pressure gas, most of the water mist penetrating through the filter plate is attached to the water guide plate and converged into water drops, the high-pressure gas and the residual water mist in the collecting box penetrate through the flowing cavity and enter the water collecting cavity, most of the water mist in the water collecting cavity is attached to the cavity wall of the water collecting cavity, the high-pressure gas penetrates through the water collecting cavity, the air cavity and the air outlet and is sprayed to the fabric, the impurities on the fabric are blown off and enter the rotary drum through the impurity suction port, and effective cleaning of the impurities on the fabric is achieved.

To sum up, the application comprises the following beneficial technical effects:

1. the cleaning assembly, the driving assembly and the air injection assembly are arranged, under the action of suction of the impurity suction port and blowing of the air outlet, impurities on the fabric enter the collecting assembly through the impurity suction port, the interior of the cleaning assembly and the air inlet, the impurities are filtered by the filter plate, and air passes through the filter plate and is sprayed out of the air outlet to the contact position of the cleaning assembly and the fabric, so that the impurity removal effect is improved;

2. the arrangement of the collecting box and the arc-shaped surface ensures that air enters the rotary drum from the impurity suction ports at the brush bristles which are not abutted against the arc-shaped surface, so that the number of the impurity suction ports capable of air inlet is reduced, the suction force of each impurity suction port capable of air inlet is increased, and the impurity suction effect on the fabric is improved;

3. due to the arrangement of the impurity removing plate, when the cleaning assembly is driven to rotate by the driving assembly, the bristles abut against the impurity removing plate in a rotating mode, the bristles are enabled to be gradually deformed and bent by the impurity removing plate, impurities attached to the bristles are scraped by the impurity removing plate, and the scraped impurities enter the collecting box through the air inlet, so that the impurities are not easily attached to the fabric again through the bristles, and the impurity removing effect is improved;

4. due to the arrangement of the spraying assembly, the high-pressure gas blows the water mist sprayed by the atomizing nozzle to the gas outlet, the water mist is in contact with the waste threads and the batting, the waste threads and the batting wetted by the water mist fall in the collecting box due to the self gravity and are not easy to float out of the collecting box, and the waste threads and the batting are effectively collected;

5. the setting of separable set has improved the contact time of water smoke with impurity for most impurity homoenergetic is drenched and is attached to on the fixed plate by the water smoke, so the filter plate will be difficult for being blockked up by the impurity of drenching, and the water smoke volume that passes the filter plate will reduce, makes the water smoke be difficult for contacting with the surface fabric.

Drawings

FIG. 1 is a schematic diagram of the overall structure in the embodiment of the present application;

FIG. 2 is a schematic sectional view of the whole of the embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of an embodiment of the present application showing a cleaning assembly, a collection assembly, a gas injection assembly, a spray assembly, and a separation assembly.

Reference numerals: 1. a support; 11. a mounting seat; 12. a roller; 2. cleaning the assembly; 21. a rotating drum; 22. brushing; 23. a horizontal axis; 24. a trash suction port; 3. a drive assembly; 31. a gear; 32. a motor; 4. a collection assembly; 41. a collection box; 42. filtering the plate; 43. fixing a column; 44. an air inlet; 45. an air outlet; 46. an arc-shaped surface; 47. removing impurities; 5. a gas injection assembly; 51. an air pump; 52. a gas ejector tube; 6. a spray assembly; 61. a water pump; 62. a water inlet pipe; 63. a water outlet pipe; 64. an atomizing spray head; 7. a separation assembly; 71. a fixing plate; 72. a serpentine channel; 73. mounting a rod; 74. chamfering; 75. a water guide plate; 76. a flow chamber; 77. a partition plate; 78. a water collection cavity; 79. an air chamber; 8. fabric.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an edulcoration mechanism for weaving machine. As shown in fig. 1 and 2, the impurity removing mechanism for the textile machine comprises a bracket 1, wherein the bracket 1 comprises two mounting plates which are arranged at intervals; be equipped with two sets of clearance subassembly 2 of contradicting in both sides about the surface fabric 8 respectively on support 1, drive two sets of synchronous reverse rotation's of clearance subassembly 2 drive assembly 3, two sets of collection subassembly 4 that are located surface fabric 8 upper and lower both sides respectively and two sets of jet-propelled subassembly 5 that are located corresponding collection subassembly 4 respectively, drive assembly 3 is used for driving the impurity of the rotatory clearance surface fabric 8 upper and lower both sides of clearance subassembly 2, jet-propelled subassembly 5 is used for spraying high-pressure gas to collection subassembly 4, make the impurity of being cleared up subassembly 2 clearance get into in collection subassembly 4.

As shown in fig. 1 and 3, the cleaning assembly 2 includes a rotating drum 21 extending along a horizontal direction and a plurality of bristles 22 fixed on an outer wall of the rotating drum 21, the rotating drum 21 is rotatably connected to the support 1 through a horizontal shaft 23, a plurality of impurity suction ports 24 are circumferentially arranged on the outer wall of the rotating drum 21, the impurity suction ports 24 are communicated with the inside of the rotating drum 21, and the bristles 22 are abutted against the fabric 8. The driving assembly 3 comprises two gears 31 engaged with each other and a motor 32 fixed on the bracket 1, wherein the two gears 31 are fixedly sleeved on the corresponding horizontal shafts 23, and an output shaft of the motor 32 is fixedly connected to one of the horizontal shafts 23. When the motor 32 is started, the motor 32 drives the two rotary drums 21 to synchronously and reversely rotate through the two gears 31, and the bristles 22 on the rotary drums 21 brush impurities on the upper side and the lower side of the fabric 8.

As shown in fig. 1, two mounting seats 11 are fixed at the bottom of the bracket 1, two rollers 12 are mounted at the bottom of each mounting seat 11, and the rollers 12 facilitate the movement of the bracket 1.

As shown in fig. 1 and 3, the collecting assembly 4 includes a collecting box 41 and two filter plates 42 fixedly embedded in the collecting box 41, the collecting box 41 is fixed on the bracket 1 by a plurality of fixing columns 43, the length direction of the collecting box 41 is the same as the length direction of the rotary drum 21, the cross section of the collecting box 41 is in a sector plate shape, and the inside of the collecting box 41 is in a hollow arrangement; the collecting box 41 is provided with an air inlet 44 and two air outlets 45, the air inlet 44 and the air outlets 45 are both communicated with the inside of the collecting box 41, the air inlet 44 corresponds to the impurity absorbing port 24, the cleaning assembly 2 is positioned between the two air outlets 45, and the two air outlets 45 both face the contact part of the cleaning assembly 2 and the fabric 8; each filter plate 42 is positioned between an air inlet 44 and a corresponding air outlet 45.

As shown in fig. 3, the air injection assembly 5 includes an air pump 51 and two air injection pipes 52 connected to the air pump 51, the two air injection pipes 52 extend into the collection box 41, each air injection pipe 52 is located between the air inlet 44 and the corresponding filter plate 42, and the two air injection pipes 52 are provided with a plurality of air injection ports facing the corresponding air outlet 45. The collection box 41 is provided with a spraying assembly 6, the spraying assembly 6 comprises a water pump 61, the water pump 61 is connected with a water inlet pipe 62 and two water outlet pipes 63, each water outlet pipe 63 is connected with a plurality of atomizing nozzles 64 extending into the collection box 41, and each atomizing nozzle 64 is located between the corresponding air injection pipe 52 and the corresponding filter plate 42.

When the air pump 51 sprays high-pressure air to the air outlet 45 through the air spraying pipe 52, negative pressure is formed at the air inlet 44, suction is generated at the impurity suction port 24, and impurities removed by the brush bristles 22 pass through the impurity suction port 24, the interior of the rotary drum 21 and the air inlet 44 and enter the collection box 41; the water pump 61 pumps the external water body into the atomizing nozzle 64, the atomizing nozzle 64 sprays water mist, and the high-pressure gas blows the water mist to the air outlet 45; the water smoke will contact with waste thread, the batting, the waste thread and the batting that are wetted by the water smoke will fall on the filter plate 42 in collecting the box 41 because of self gravity, high-pressure gas will spray to the surface fabric 8 from the gas outlet 45 that corresponds, the impurity on the surface fabric 8 will be blown off with the angle of difference from two gas outlet 45 spun high-pressure gas for impurity on the surface fabric 8 is blown off and enters into in collecting the box 41 through inhaling miscellaneous mouthful 24, rotary drum 21 is inside and air inlet 44, has improved the edulcoration effect.

As shown in fig. 3, the outer wall of the collecting box 41 is provided with an arc surface 46 against which the brush hairs 22 rotate, when the brush hairs 22 are against the arc surface 46, the brush hairs 22 against the arc surface 46, the arc surface 46 and the outer wall of the rotary drum 21 jointly enclose a separation blocking chamber, air is not easy to enter the air inlet 44 through the separation blocking chamber, so that the air enters the rotary drum 21 from the impurity suction ports 24 at the positions of the brush hairs 22 against the arc surface 46, the number of the impurity suction ports 24 capable of air inlet is reduced, the suction force of each impurity suction port 24 capable of air inlet is increased, and the impurity suction effect on the fabric 8 is improved.

As shown in fig. 3, a trash removal plate 47 is fixed on the arc surface 46, one end of the trash removal plate 47 far away from the arc surface 46 is spaced from the outer wall of the drum 21, and the trash removal plate 47 is located at the air inlet 44. When brush hair 22 rotates to contradict in edulcoration board 47, remove miscellaneous board 47 and will make brush hair 22 warp the bending gradually, will be scraped by edulcoration board 47 attached to the impurity on brush hair 22, and the impurity of being scraped will enter into collection box 41 through air inlet 44 in for impurity is difficult to be attached to fabric 8 again through brush hair 22, has improved the edulcoration effect.

As shown in fig. 3, a separation assembly 7 is arranged between each atomizer 64 and the corresponding filter plate 42, the separation assembly 7 includes a plurality of fixing plates 71 which are arranged on the inner wall of the collection box 41 in a staggered manner, and all the fixing plates 71 together enclose a serpentine channel 72; the fixing plate 71 is fixed with a plurality of mounting rods 73, and the mounting rods 73 are fixed with a plurality of barbs 74. When high-pressure gas blows water mist to the air outlet 45, high-pressure gas, water mist and impurities pass through the serpentine channel 72, contact time of the water mist and the impurities is prolonged, most of the impurities can be wetted by the water mist and are attached to the fixing plate 71 and the inverted hook 74, so that the filter plate 42 is not easily blocked by the wetted impurities, the amount of the water mist passing through the filter plate 42 is reduced, and the water mist is not easily contacted with the fabric 8.

As shown in fig. 3, a water guide plate 75 is disposed between each filter plate 42 and the corresponding air outlet 45, the water guide plate 75 is fixed on the inner wall of the collection box 41, and one end of the water guide plate 75 and the inner wall of the collection box 41 enclose a flow chamber 76; the side of the water guide plate 75 away from the filter plate 42 and the inner wall of the collecting box 41 form a mixing chamber, a partition plate 77 is fixed on the wall of the mixing chamber, the mixing chamber is divided into a water collecting chamber 78 and an air chamber 79 by the partition plate 77, the water collecting chamber 78 and the air chamber 79 are communicated with each other, the flowing chamber 76 is communicated with the water collecting chamber 78, and the air outlet 45 is communicated with the air chamber 79.

After the high-pressure gas, the water mist and the impurities pass through the serpentine channel 72, the water mist passes through the filter plate 42 along with the high-pressure gas, most of the water mist passing through the filter plate 42 is attached to the water guide plate 75 and is gathered into water drops, the high-pressure gas and the residual water mist in the collection box 41 pass through the flow cavity 76 and enter the water collection cavity 78, most of the water mist in the water collection cavity 78 is attached to the cavity wall of the water collection cavity 78, and the high-pressure gas passes through the water collection cavity 78, the air cavity 79 and the air outlet 45 and is sprayed onto the fabric 8, so that the impurities on the fabric 8 are blown off and enter the rotary drum 21 through the impurity suction port 24, and the impurities on the fabric 8 are effectively cleaned.

As shown in fig. 2 and 3, water drops on the water guide plate 75 in the upper collecting box 41 flow into the water collecting cavity 78 through the flow cavity 76, and the water mist on the wall of the water collecting cavity 78 is gathered into water drops to flow into the bottom of the water collecting cavity 78, so that water is collected; the water drops on the water guide plate 75 in the lower collecting box 41 slide down to the bottom of the collecting box 41 along the inner wall of the collecting box 41, and the water is collected.

The implementation principle of an edulcoration mechanism for weaving machine of the embodiment of this application is: in the impurity removing process of the fabric 8, the fabric 8 passes through the two groups of cleaning assemblies 2, the motor 32 drives the two rotary drums 21 to synchronously and reversely rotate through the two gears 31, and the bristles 22 on the rotary drums 21 rotationally brush impurities on the upper side and the lower side of the fabric 8.

Then the air pump 51 will spray high pressure air to the air outlet 45 through the air spraying pipe 52, the air inlet 44 will form negative pressure, the impurity suction port 24 will generate suction force, so that the impurities removed by the brush hairs 22 will pass through the impurity suction port 24, the interior of the rotary drum 21 and the air inlet 44 into the collection box 41. The water pump 61 pumps the external water into the atomizer 64, the atomizer 64 sprays water mist, and the high-pressure gas blows the water mist to the gas outlet 45. The high-pressure gas, the water mist and the impurities pass through the serpentine channel 72, so that the contact time between the water mist and the impurities is prolonged, most of the impurities can be wetted by the water mist and are attached to the fixed plate 71 and the barbs 74, and the filter plate 42 is not easily blocked by the wetted impurities.

After the high-pressure gas, the water mist and the impurities pass through the serpentine channel 72, the water mist passes through the filter plate 42 along with the high-pressure gas, most of the water mist passing through the filter plate 42 is attached to the water guide plate 75 and is gathered into water drops, the high-pressure gas and the residual water mist in the collection box 41 pass through the flow cavity 76 and enter the water collection cavity 78, and most of the water mist in the water collection cavity 78 is attached to the cavity wall of the water collection cavity 78; high-pressure gas will pass water collecting cavity 78, air chamber 79 and gas outlet 45 and spray to surface fabric 8 for impurity on the surface fabric 8 is blown and enters into rotary drum 21 through inhaling miscellaneous mouthful 24 in, has realized the effective clearance to impurity on the surface fabric 8, has improved the edulcoration effect.

When the bristles 22 are in rotary contact with the arc-shaped surface 46, the bristles 22 in contact with the arc-shaped surface 46, the arc-shaped surface 46 and the outer wall of the rotary drum 21 jointly form a separation blocking cavity, air is not easy to enter the air inlet 44 through the separation blocking cavity, so that the air enters the rotary drum 21 from the impurity suction ports 24 at the positions of the bristles 22 in contact with the arc-shaped surface 46, the number of the impurity suction ports 24 capable of entering air is reduced, the suction force of each impurity suction port 24 capable of entering air is increased, and the impurity suction effect on the fabric 8 is further improved.

When brush hair 22 rotates to contradict in edulcoration board 47, remove miscellaneous board 47 and will make brush hair 22 warp the bending gradually, will be scraped by edulcoration board 47 attached to the impurity on brush hair 22, and the impurity of being scraped will enter into collection box 41 through air inlet 44 in for impurity is difficult to be attached to fabric 8 again through brush hair 22, has improved the edulcoration effect once more.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. An edulcoration mechanism for weaving machine which characterized in that: the cleaning device comprises a support (1), wherein two groups of cleaning components (2) which are respectively abutted to the upper side and the lower side of a fabric (8), a driving component (3) which drives the two groups of cleaning components (2) to synchronously and reversely rotate, two groups of collecting components (4) which are respectively positioned on the upper side and the lower side of the fabric (8) and two groups of air injection components (5) which are respectively positioned on the corresponding collecting components (4) are arranged on the support (1), the cleaning components (2) are arranged in a hollow manner, and a plurality of impurity suction ports (24) communicated with the cleaning components (2) are arranged on the side parts of the cleaning components (2); an air inlet (44) facing the upper impurity suction port (24) of the cleaning component (2), an air outlet (45) facing the contact part of the cleaning component (2) and the fabric (8), and a filter plate (42) positioned between the air inlet (44) and the air outlet (45) are arranged on the collecting component (4); the gas injection assembly (5) injects high-pressure gas from the gas inlet (44) to the gas outlet (45).

2. A trash removal mechanism for a textile machine as claimed in claim 1 wherein: cleaning assembly (2) include rotary drum (21) and a plurality of brush hair (22) of fixing on rotary drum (21) outer wall that extend along the horizontal direction, and rotary drum (21) rotate through horizontal axis (23) and connect in support (1), and a plurality of foreign substance absorption mouth (24) circumference are located on the outer wall of rotary drum (21), and just foreign substance absorption mouth (24) communicate inside rotary drum (21), and brush hair (22) are contradicted in surface fabric (8).

3. A trash removal mechanism for a textile machine as claimed in claim 2 wherein: collect subassembly (4) including installing collection box (41) on support (1), the inside of collecting box (41) is the cavity setting, and air inlet (44) and gas outlet (45) all locate on the outer wall of collecting box (41) and communicate inside collecting box (41), and filter plate (42) are fixed to be inlayed and are established in collecting box (41), are equipped with on the outer wall of collecting box (41) and supply brush hair (22) to rotate arcwall face (46) of contradicting.

4. A trash removal mechanism for a textile machine as claimed in claim 3 wherein: the cleaning device is characterized in that an impurity removing plate (47) used for pressing the bristles (22) to be bent is fixed on the arc-shaped surface (46), one end, far away from the arc-shaped surface (46), of the impurity removing plate (47) is arranged at intervals with the outer wall of the rotary drum (21), and the impurity removing plate (47) is located at the air inlet (44).

5. A trash removal mechanism for a textile machine as claimed in claim 3 wherein: two air outlets (45) are arranged on the collecting box (41), the cleaning component (2) is positioned between the two air outlets (45), and the two air outlets (45) face the contact part of the cleaning component (2) and the fabric (8); two filter plates (42) are fixedly embedded in the collecting box (41), and each filter plate (42) is positioned between the air inlet (44) and the corresponding air outlet (45); jet-propelled subassembly (5) include air pump (51) and two jet-propelled pipes (52) of connecting in air pump (51), and two jet-propelled pipes (52) all stretch into in collecting box (41), and all are equipped with the jet-propelled mouth towards the gas outlet (45) that correspond on two jet-propelled pipes (52).

6. A trash removal mechanism for a textile machine as claimed in claim 5 wherein: every jet-propelled pipe (52) all are located between air inlet (44) and the filter plate (42) that corresponds, are equipped with spraying subassembly (6) on collecting box (41), and spraying subassembly (6) include water pump (61), are connected with inlet tube (62) and two outlet pipes (63) on water pump (61), all are connected with on every outlet pipe (63) and stretch into atomizer (64) in collecting box (41), and every atomizer (64) all are located between corresponding jet-propelled pipe (52) and filter plate (42).

7. A trash removal mechanism for a textile machine as claimed in claim 6 wherein: every all be equipped with separation assembly (7) between atomizer (64) and the filter plate (42) that correspond, separation assembly (7) include a plurality of crisscross fixed plates (71) of setting on collection box (41) inner wall, and snake-shaped passageway (72) have been enclosed jointly to all fixed plates (71).

8. A trash removal mechanism for a textile machine as claimed in claim 7 wherein: a plurality of mounting rods (73) are fixed on the fixing plate (71), and a plurality of barbs (74) used for hooking waste threads and batts are fixed on the mounting rods (73).

9. A trash removal mechanism for a textile machine as claimed in claim 7 wherein: a water guide plate (75) is arranged between each filter plate (42) and the corresponding air outlet (45), the water guide plate (75) is arranged on the inner wall of the collection box (41), and one end of the water guide plate (75) and the inner wall of the collection box (41) enclose a flow cavity (76) through which high-pressure gas and water pass; one side of the water guide plate (75) far away from the filter plate (42) and the inner wall of the collecting box (41) enclose a mixing cavity, a partition plate (77) used for separating air and water is fixed on the wall of the mixing cavity, the mixing cavity is divided into a water collecting cavity (78) and an air cavity (79) by the partition plate (77), the water collecting cavity (78) and the air cavity (79) are communicated with each other, the flowing cavity (76) is communicated with the water collecting cavity (78), and the air outlet (45) is communicated with the air cavity (79).

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